FR2918136A1 - Monoblock annular cage for roller bearing, has bridge provided with notch emerging into bore and slit, and another bridge provided with stud whose shape is complementary to notch, where stud is inserted into notch - Google Patents

Abstract

The cage has bars extending axially between rings and delimiting bores (18A, 18B) for housing cylindrical rollers or needles. The rings and the bar (16) are cracked for permitting opening of the cage on both sides of an axial plane. The cracked bar has material bridges (16A, 16B) continuously extending between the rings. The bridge is provided with a notch (22) emerging into the bore (18A) and a slit (20). Another bridge is provided with a stud (24) whose shape is complementary to the notch. The stud is inserted in the notch.

Description

ROLLER OR NEEDLE-CAGE CAGE TECHNICAL FIELD OF THE INVENTION

  The present invention relates to a roller bearing cage or needle, of the type comprising at least one slot for opening the cage in an axial plane to facilitate its mounting, for example on a shaft or an inner race. STATE OF THE ART

  In FR 2 494 359 is described a plastic cage of this type, provided on either side of the slot of complementary shapes constituted by at least one resilient hook and a corresponding housing, to allow a simple assembly. However, the attachment interface has dimensions such that the distribution of the cells of: Housing of the rolling bodies at the periphery of the cage is not regular, the distance between the two adjacent cells on either side of the slot being substantially larger than the distance between the other cells. The rolling bodies received in the cells adjacent to the slot are more stressed than the other rolling bodies, causing premature wear of the bearing.

  In EP 489 235 is described a split cage made of plastic, consisting of two rings connected by strips bridges of material, and delimiting cells. The slot is formed between two bars of specific shapes, one provided with a protruding key and the other provided with a housing for this key. The housing is of such dimensions that the bar in which it is formed does not constitute a bridge of continuous material from one ring to another. The structure of the cage is weakened, so that the cell contiguous to the non-continuous bar badly ensures its function of guiding the rolling body that it receives. In addition, the dimensions of the two bars on either side of the slot are such that the distribution of the cells is not regular around the perimeter of the cage, so that the rolling bodies located in the cells adjacent to the slot are more solicited.

  In the document FR 2 648 879 is described a split roller bearing cage, divided along an axial plane and which has at its joint longitudinal holes in which are inserted pins to close the cage. This system proves particularly complex in particular by the large number of parts required.

OBJECT OF THE INVENTION

  The present invention therefore aims to overcome the disadvantages of the state of the art and to provide a split cage which provides sufficient rigidity, and a large capacity, while remaining simple assembly.

  To do this, it is proposed, according to the invention, a rolling cage constituted by a single molded piece of synthetic material, comprising two rings defining a common reference geometric axis and axially extending bars of one of the two rings. to the other and constituting continuous material bridges between the two rings, the bars delimiting between them cells to accommodate cylindrical rollers or needles, the two rings and one of the bars being slotted to allow the opening of the cage on either side of an axial plane, the slotted bar having two bridges of material each extending continuously from one ring to the other, one of the two decks of the slotted bar being provided with a notch opening on the one hand in one of the cells and on the other hand in the slot, and the other bridge of the slotted bar being provided with a protruding tongue of complementary shape to the notch, inserted into the notch .

  Thanks to the shape of the notch, it is possible to lengthen the tenon which opens directly into the adjacent cell on the other side of the slot thus to avoid deformation of the cage at the slot. The cage keeps good mechanical strength because the material bridges constituting the split bar are continuous from one ring to another. We can then play on the other dimensions of the material bridges of the slotted bar to reduce the distance between the two cells separated by the slotted bar, which allows to have more cells, or cells of larger dimensions at the periphery. of the cage, so as to increase its capacity for a given diameter.

  According to one embodiment, the material bridge comprising the notch has a thickness measured in the radial direction lower at the notch than near the rings.

  To optimize the dimensions of the split bar, it is advantageous that the notch opens on the one hand 25 in the slot and on the other hand in one of the cells.

  Four drops of tallow located on either side of the slot may be provided in the axial extension of the material bridges of the slotted bar projecting radially outwards. These drops of tallow locally cooperate with the outer ring in which the cage is inserted, to limit the opening of the slot in the radial direction. Similarly, four drops of tallow located on either side of the slot, in the axial extension of the material bridges of the slotted bar and projecting radially inwards, to cooperate with an inner ring may be provided. rolling or with a tree.

  According to one embodiment, the material bridges 5 of the slotted bar are contiguous on either side of the slot.

  To guide the tenon in the axial direction, the notch may comprise walls facing one another on a plane perpendicular to the geometric axis and each cooperating with a corresponding side wall of the key. It is also possible that the walls of the notch or the corresponding walls of the key are provided with drops of tallow projecting axially. It is advantageous for the cage to be symmetrical with respect to a plane perpendicular to the geometric reference axis, which greatly facilitates assembly.

  According to a preferred embodiment, the cage is constituted by a single molded piece of plastics material.

  The invention also relates, in a second aspect, to an assembly for rolling bearing comprising a cage as described above, and cylindrical rolling bodies consisting of rollers or needles housed in the cells of the cage. According to a particularly advantageous embodiment, the sum of the diameters of the cylindrical rolling bodies is greater than or equal to half the perimeter of a cylinder passing through the axes of rotation of the cylindrical rolling bodies. The invention also relates to a bearing comprising an assembly as described above, disposed between an inner ring and an outer ring.

  BRIEF DESCRIPTION OF THE FIGURES Other features and advantages of the invention will emerge on reading the description which follows, with reference to the appended figures, in which - FIG. 1 represents a perspective view of a rolling cage according to a first embodiment of the invention; - Figure 2 shows a perspective view of a detail of a section of the cage of Figure 1; - Figure 3 shows a view of a detail of the cage of Figure 1, in a section along a plane of symmetry of the cage, perpendicular to the axis of the cage; FIG. 4 represents a perspective view of a rolling cage according to a second embodiment of the invention; - Figure 5 shows a section of the cage of Figure 4, in a plane of symmetry of the cage parallel to its axis of rotation Z; Figure 6 shows a detail of a section along the plane A-A of Figure 5; FIG. 7 represents a detail of a section along the plane B-B of FIG. 5.

  For the sake of clarity, identical or similar elements are marked by identical reference signs throughout the figures.

EXAMPLE OF REALIZATION

  In Figures 1 to 3 is shown an annular cage 10 in one-piece rolling needle or cylindrical roller (hereinafter referred to as the generic expression cylindrical rolling bodies, or more simply by rolling bodies) of material Synthetic. The cage comprises two rings 12 connected to each other by axially extending webs 14, 16 delimiting cells 18, 18A, 18B. The cells 18, 18A, 18B are all of identical dimensions, the walls of the bars conforming to a cylindrical geometric envelope for receiving and guiding cylindrical rolling bodies. The cage has a plane of symmetry perpendicular to the axis of rotation of the cage.

  The two rings 12 and one of the bars 16 are slit so as to form a common slot 20 for opening the cage on either side of an axial plane P, in order to mount the cage on an inner ring or a tree. The slotted bar 16 is composed of two material bridges 16A, 16B each extending continuously from one ring 12 to the other. The bridge 16A of the slotted bar 16 is provided with a notch 22 opening on the one hand into the adjacent cell 18A and on the other hand into the slot 20. The other bridge 16B of the slotted bar is provided with a stud 24 complementary complementary shape to the notch, inserted into the notch 22. A front face 26 of the tenon thus directly into the cell 18A. The tenon rests with a bearing wall 28 perpendicular to a radial axis of the cage and rotated radially inwards on a corresponding bearing wall 30 of the notch 22. The notch 22 further comprises side faces 32 which limit the movement of the stud 24 parallel to the axis of the cage 10.

  These lateral faces 32 may be provided with protuberances 33 in the form of spherical caps projecting axially. In addition, the two material bridges 16A, 16B of the slotted bar 16 comprise flat walls 34 extending in the axial plane of the slot and facing each other on either side of the slot.

  The rings 12 are provided, on either side of the slot 20, on their radial outer face and their inner radial face, radial protuberances 36A, 36B, 37A, 37B in the form of spherical caps arranged in the axial extension of the bridges. of material 16A, 16B of the split bar 16.

  When the cage 10 is disposed between inner and outer races of a rolling bearing, the radial protuberances 36A, 36B, 37A, 37B can come into contact with the raceways, thus guiding the edges of the slot and limiting its opening. The post 24 is guided in the notch 22 in the radial and axial direction. Finally, the flat walls 34 of the bridges 16A, 16B of the slotted bar 16 come into contact with each other thus limiting the movement in the direction of the circumference of the cage.

  Due to the structure of the interface between the two bridges 16A, 16B of material of the slotted bar, the distance between the two cells 18A, 18B separated by the slotted bar 16 is small, less than 1.5 times the distance between two adjacent cells 18 separated by an unslotted bar 14, while the corresponding ratio for a conventional split cage is of the order of 2.

  The reduction in size compared to a conventional split cage is significant and allows to dispose if necessary an additional cell, or cells of larger diameter.

  A second embodiment of the invention is shown in Figures 4 to 7. Like the cage of the first embodiment, the cage of the second mode is formed by two rings 12 connected to one another by bars 14 , 16 extending axially, delimiting cells 18, 18A, 18B. The cells 18, 18A, 18B are all of identical dimensions, the walls of the bars 14, 16 conforming to a cylindrical geometrical envelope for receiving and guiding cylindrical rolling bodies. The cage has a plane of symmetry A-A perpendicular to the axis of rotation Z of the cage.

  The two rings 12 and one of the bars 16 are slit so as to form a common slot 20 allowing the cage to be opened on either side of an axial plane, in order to mount the cage on an inner ring or a tree. The split bar 16 has two material bridges 16A, 16B extending from one ring to the other. The material bridge 16A has a median notch 22 open on one side on the adjacent cell 18A and on the other on the slot 20. The other material bridge 16B is provided with a stud 24 which is housed in the middle notch 22 and opens into the cell 18A. As in the first embodiment, the pin 24 rests with a bearing wall 28 perpendicular to a radial axis of the cage and rotated radially inwards on a corresponding bearing wall 30 of the other bridge of material of the split bar. The notch 22 also has side faces which limit the movement of the post parallel to the axis of the cage.

  In addition, the material bridge has two lateral tabs 38 which are housed in lateral notches 40 of the material bridge. The lateral tabs 38 are each provided with a bearing wall 42 perpendicular to a radial axis of the cage and rotated radially inwardly against a support wall 44 of the corresponding lateral notch 40.

  The post 24 and the central notch 22 have the same function as in the first embodiment. The tabs 38 and the lateral notches 40 provide additional guidance limiting the risk of curling or twisting of the cage.

  In addition, a few cylindrical rolling bodies 50 are shown in the figure.

Claims (13)

  Rolling cage consisting of a single molded piece of synthetic material, comprising two rings (12) defining a common reference geometrical axis (Z1 and bars (14, 16) extending axially from one of the two rings to the and constituting continuous material bridges between the two rings, the webs delimiting between them cells (18, 18A, 18B) for cylindrical rollers or needles (50), the two rings (12) and one (16) bars being split to allow the opening of the cage on either side of an axial plane (P), the slotted bar having two material bridges (16A, 16B) each extending continuously from one ring to another, one (16A) of the two decks of the slotted bar being provided with a notch (22) opening on the one hand in one of the cells (18A) and on the other hand in the slot (20), and the other bridge (16B) the slotted bar being provided with a stud (24) salient complementary shape at the notch, inserted into the notch.   2. Cage according to claim 1, characterized in that the material bridge (16A) having the notch has a thickness measured in the radial direction lower at the notch that close to the rings (12).   3. Cage according to any one of the preceding claims, characterized in that it further comprises four drops of tallow (36A, 36B) located on either side of the slot, in the axial extension of the material bridges. the slotted bar and protruding radially outwardly.   4. Cage according to any one of the preceding claims, characterized in that it further comprises four drops of tallow (37A, 37B) located on either side of the slot, in the axial extension of the bridges. material of the slotted bar and protruding radially inwardly.   5. Cage according to any one of the preceding claims, characterized in that the material bridges (16A, 16B) of the slotted bar are contiguous on either side of the slot.   6. Cage according to any one of the preceding claims, characterized in that the notch comprises walls (32) facing each other on either side of a plane perpendicular to the geometric axis and each cooperating with a wall lateral side of the post.   7. Cage according to any one of the preceding claims, characterized in that the walls of the notch or the corresponding walls of the stud are provided with drops of tallow (33).   8. Cage according to any one of the preceding claims, characterized in that the cells (18, 18A, 18B) are of identical dimensions. 25   9. Cage according to any one of the preceding claims, characterized in that the distance between the cells separated by the slotted bar is less than one and a half times the distance between two other adjacent bars of the cage. 30   10. Cage according to any one of the preceding claims, characterized in that the cage is symmetrical with respect to a plane perpendicular to the geometric reference axis.   Roller bearing assembly comprising a cage (10) according to any one of the preceding claims, and cylindrical rolling bodies (50) constituted by rollers or needles housed in the cells (18, 18A, 18B) of the cage.   12.A kit according to claim 11, characterized in that the sum of the diameters of the cylindrical rolling bodies is greater than or equal to half the perimeter of a cylinder passing through the axes of rotation of the cyldindrical rolling bodies.   13. Bearing comprising an assembly according to claim 11 or claim 12 disposed between an inner ring and an outer ring.